Because the water dissociation is an endothermic reaction.
If there is no reaction occuring to change the molecular structure of the substance, you have to look at the ionic product of the substance. When the ionic product is more than the Ksp of the substance, there would be precipitation of the substance
Yes. It is an ionic compound, and all ionic compounds are crystalline solids at room temperature.
For solutions of ionic compounds in water, the formation of a precipitate can be predicted by noting the concentrations of each kind of ions present in the solution after it is prepared. If the solubility product constant of any possible ionic compound-forming combination of these ions is exceeded, a precipitate will eventually form. If not, no precipitate will form.
Like virtually all ionic compounds, magnesium fluoride is a solid at room temperature.
NaNO3 (sodium nitrate) is an ionic compound, as are all sodium (Na) compounds. Ionic compounds are solid at room temperatures.
why the ionic constanat of water is temperature dependent
Because the water dissociation is an endothermic reaction.
solubility product constant.
The ionic product for water is defined byKW = [H3O+][OH-]For water at standard temperature and pressure, it is 1.00 x 10-14 mol2/dm6pKW (which is equivalent to the pH) will be 7 at room temperature,because it is the -log10 of KW, and -log10 of the square root of 1x10-14 is 7.
ionic product IP = [H2+]2[SO42-] SOLUBILITY PRODUCT = IP (mol3dm-9)
Ionic compounds are generally solids at room temperature.
Solidlike salt (NaCl) which is an Ionic compound.
It is the product of molar concentration of H* and OH-
At room temperature, most ionic compounds are solids.
they would be solids at room temperature.
pH is based on the ionic product of the water. At ionic product of water reaches to 100, then the pH of the solution is 14.
At room temperature, most ionic compounds are solids.